The fibrate gemfibrozil is a NO- and haem-independent activator of soluble guanylyl cyclase: In vitro studies
The fibrate gemfibrozil is a NO- and haem-independent activator of soluble guanylyl cyclase: In vitro studies
Background and Purpose Fibrates are a class of drugs widely used to treat dyslipidaemias. They regulate lipid metabolism and act as PPARα agonists. Clinical trials demonstrate that besides changes in lipid profiles, fibrates decrease the incidence of cardiovascular events, with gemfibrozil exhibiting the most pronounced benefit. This study aims to characterize the effect of gemfibrozil on the activity and function of soluble guanylyl cyclase (sGC), the key mediator of NO signalling. Experimental Approach High-throughput screening of a drug library identified gemfibrozil as a direct sGC activator. Activation of sGC is unique to gemfibrozil and is not shared by other fibrates. Key Results Gemfibrozil activated purified sGC, induced endothelium-independent relaxation of aortic rings and inhibited platelet aggregation. Gemfibrozil-dependent activation was absent when the sGC haem domain was deleted, but was significantly enhanced when sGC haem was lacking or oxidized. Oxidation of sGC haem enhanced the vasoactive and anti-platelet effects of gemfibrozil. Gemfibrozil competed with the haem-independent sGC activators ataciguat and cinaciguat. Computational modelling predicted that gemfibrozil occupies the space of the haem group and interacts with residues crucial for haem stabilization. This is consistent with structure-activity data which revealed an absolute requirement for gemfibrozil's carboxyl group. Conclusions and Implications These data suggest that in addition to altered lipid and lipoprotein state, the cardiovascular preventive benefits of gemfibrozil may derive from direct activation and protection of sGC function. A sGC-directed action may explain the more pronounced cardiovascular benefit of gemfibrozil observed over other fibrates and some of the described side effects of gemfibrozil.
2316-2329
Sharina, I. G.
b8579c8f-52a8-4b17-a496-e1617245e1c1
Sobolevsky, M.
e3c38b4d-66bf-4ff9-a781-64d39dc64e81
Papakyriakou, A.
939bc8c9-1693-4530-9099-c55772b22f1d
Rukoyatkina, N.
7f55e695-1634-4fcb-8721-ca06cced795e
Spyroulias, G. A.
bcd5c976-ef39-4d38-93cb-0dffd0e76135
Gambaryan, S.
c6b48085-6b27-4cf2-978d-16006d23e8cd
Martin, E.
5e6a98d5-375f-4e9a-a8d1-73044780c28e
5 January 2015
Sharina, I. G.
b8579c8f-52a8-4b17-a496-e1617245e1c1
Sobolevsky, M.
e3c38b4d-66bf-4ff9-a781-64d39dc64e81
Papakyriakou, A.
939bc8c9-1693-4530-9099-c55772b22f1d
Rukoyatkina, N.
7f55e695-1634-4fcb-8721-ca06cced795e
Spyroulias, G. A.
bcd5c976-ef39-4d38-93cb-0dffd0e76135
Gambaryan, S.
c6b48085-6b27-4cf2-978d-16006d23e8cd
Martin, E.
5e6a98d5-375f-4e9a-a8d1-73044780c28e
Sharina, I. G., Sobolevsky, M., Papakyriakou, A., Rukoyatkina, N., Spyroulias, G. A., Gambaryan, S. and Martin, E.
(2015)
The fibrate gemfibrozil is a NO- and haem-independent activator of soluble guanylyl cyclase: In vitro studies.
British Journal of Pharmacology, 172 (9), .
(doi:10.1111/bph.13055).
Abstract
Background and Purpose Fibrates are a class of drugs widely used to treat dyslipidaemias. They regulate lipid metabolism and act as PPARα agonists. Clinical trials demonstrate that besides changes in lipid profiles, fibrates decrease the incidence of cardiovascular events, with gemfibrozil exhibiting the most pronounced benefit. This study aims to characterize the effect of gemfibrozil on the activity and function of soluble guanylyl cyclase (sGC), the key mediator of NO signalling. Experimental Approach High-throughput screening of a drug library identified gemfibrozil as a direct sGC activator. Activation of sGC is unique to gemfibrozil and is not shared by other fibrates. Key Results Gemfibrozil activated purified sGC, induced endothelium-independent relaxation of aortic rings and inhibited platelet aggregation. Gemfibrozil-dependent activation was absent when the sGC haem domain was deleted, but was significantly enhanced when sGC haem was lacking or oxidized. Oxidation of sGC haem enhanced the vasoactive and anti-platelet effects of gemfibrozil. Gemfibrozil competed with the haem-independent sGC activators ataciguat and cinaciguat. Computational modelling predicted that gemfibrozil occupies the space of the haem group and interacts with residues crucial for haem stabilization. This is consistent with structure-activity data which revealed an absolute requirement for gemfibrozil's carboxyl group. Conclusions and Implications These data suggest that in addition to altered lipid and lipoprotein state, the cardiovascular preventive benefits of gemfibrozil may derive from direct activation and protection of sGC function. A sGC-directed action may explain the more pronounced cardiovascular benefit of gemfibrozil observed over other fibrates and some of the described side effects of gemfibrozil.
This record has no associated files available for download.
More information
Published date: 5 January 2015
Identifiers
Local EPrints ID: 413237
URI: http://eprints.soton.ac.uk/id/eprint/413237
ISSN: 0007-1188
PURE UUID: 696ad05f-d1a4-43e5-8cbb-ca20167188b0
Catalogue record
Date deposited: 17 Aug 2017 16:31
Last modified: 16 Mar 2024 04:28
Export record
Altmetrics
Contributors
Author:
I. G. Sharina
Author:
M. Sobolevsky
Author:
A. Papakyriakou
Author:
N. Rukoyatkina
Author:
G. A. Spyroulias
Author:
S. Gambaryan
Author:
E. Martin
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics